Mo2CTxMXene supported nickel-iron alloy: an efficient and stable heterostructure to boost oxygen evolution reaction

Abstract

AbstractA polyol-assisted solvothermal route is used to synthesize NixFeynanoalloys supported on a highly electron conductive 2D transition metal Mo2CTxMXene. Structural, morphological and chemical characteristics of the materials are determined using several physicochemical techniques. The MXene support allows not only the formation of a nanostructured metallic NixFeynanoalloys, but also favors the interfacial charge transfer for the oxygen evolution reaction (OER). The NixFey@Mo2CTxmaterial with a Ni/Fe ratio of 2.66 leads to the outstanding activity for the OER with an amazingly low Tafel slope value of 34 mV dec−1and a current density of 10 mA.cm−2at a potential of only 1.50 V vs. reversible hydrogen electrode (RHE).In situRaman experiments show thatβ-NiOOH formed by oxidation of the nanoalloys under positive scan, likely containing a very small amount of Fe, is the active phase for the OER. This material exhibits also an excellent stability over 168 h in a 5 M KOH electrolyte. Transmission electron microscopy -electron energy-loss spectroscopy analyses after 100 voltammetric cycles between 0.2 and 1.55 V vs. RHE evidence for the first time that the MXene support is not fully oxidized in the first cycle. Also, oxyhydroxide layer formed in the OER potential region at the surface of the NixFeynanoparticles can be reversibly reduced.